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Advances in Interventional Cardiology 2015; 11, 3 (41)
Images in intervention
Corresponding author:
Murat Sunbul MD, Department of Cardiology, Faculty of Medicine, Marmara University, Istanbul, Turkey, phone: +90 506 581 90 15, fax: +90 216 657 06 95, e-mail: drsunbul@yahoo.com.tr
Received: 2.04.2014, accepted: 14.05.2014.
De Winter sign in a patient with left main coronary artery occlusion
Murat Sunbul, Okan Erdogan, Osman Yesildag, Bulent Mutlu
Department of Cardiology, Faculty of Medicine, Marmara University, Istanbul, Turkey
Postep Kardiol Inter 2015; 11, 3 (41): 239–240 DOI: 10.5114/pwki.2015.54019
Case report
A previously healthy 31-year-old man with a history of smoking presented with severe prolonged chest pain for more than one hour duration. ECG taken on admis- sion revealed slightly widened QRS complexes, and ST segment elevations in leads aVR, aVL, V1 and V2 in con- trast to up-sloping ST-segment depressions in leads DII, DIII, aVF and V 3–6 at the J point (Figure 1 A), which is called de Winter sign. Subsequent urgent coronary angiography revealed almost total occlusion of the left main coronary artery (LMCA) with severe thrombus formation (Figure 2) and poor distal filling of both the left anterior descend- ing (LAD) and circumflex (CX). The patient underwent a successful coronary artery bypass grafting (CABG) op- eration with the bilateral internal mammary arteries to
the LAD and CX. His post-op. ECG substantially improved, as shown in Figure 1 B. He was discharged 10 days later with optimal medical therapy.
Although the underlying mechanism remains elusive, de Winter sign is generally ascribed to occlusions in the proximal segment of the LAD artery and is not mentioned among the ECG patterns representing acute left main coronary artery (LMCA) occlusion [1, 2]. Unfortunately, there is no single type of ECG pattern indicating sudden total occlusion of the LMCA [3]. Various factors such as individual differences in coronary anatomy, recruitment of collateral channels and repeated episodes of ischemia with preconditioning, the size of the jeopardized myo- cardium, timing of the ECG recording, partial obstruction causing some residual flow and different phases of the thrombotic cascade may all be responsible for the differ-
Figure 1. A – Surface ECG shows slightly widened QRS complexes, ST segment elevations in leads aVR, aVL, V1 and V2 in contrast to up-sloping ST-segment depressions in leads DII, DIII, aVF and V 3-6 at the J point. B – Post-op.
ECG improved with some residual ST segment changes
A B
Murat Sunbul et al. ECG in acute LMCA occlusion
240 Advances in Interventional Cardiology 2015; 11, 3 (41)
ent types of ECG changes. In conclusion, physicians and paramedics involved in the triage of patients with chest pain should be aware of de Winter sign because of its possible association with acute LMCA occlusion.
Conflict of interest
The authors declare no conflict of interest.
References
1. De Winter RJ, Verouden NJ, Wellens HJ, Wilde AA; Interventional Cardiology Group of the Academic Medical Center. A new ECG sign of proximal LAD occlusion. N Engl J Med 2008; 359: 2071-3.
2. Samadov F, Akaslan D, Cincin A, et al. Acute proximal left anteri- or descending artery occlusion with de Winter sign. Am J Emerg Med 2014; 32: 110.e1-3.
3. Yamaji H, Iwasaki K, Kusachi S, et al. Prediction of acute left main coronary artery obstruction by 12-lead electrocardiogra- phy. ST segment elevation in lead aVR with less ST segment elevation in lead V(1). J Am Coll Cardiol 2001; 38: 1348-54.
Figure 2. Coronary angiography shows total occlu- sion of the left main coronary artery with severe thrombus formation and poor distal filling of both left anterior descending and circumflex arteries